A sound source is located somewhere along the x-axis. Experiments show that the same wave front simultaneously reaches listeners at x = -7.6 m and x = 3.4 m .
a) What is the x-coordinate of the source?
b) A third listener is positioned along the positive y-axis. What is her y-coordinate if the same wave front reaches her at the same instant it does the first two listeners?
A sound source is located somewhere along the x-axis. Experiments show that the same wave front...
Question 33 (1 point) A wave is traveling with a speed v along the x axis in the positive direction. The upper graph shows the displacement y versus the distance x for a given instant of time. The lower graph shows the displacement y versus the time t for any given point x. From the information in the 57.m graphs, what is the wave speed v? 8.0 m/s O not enough information provided to solve the problem 6.0 ms/ 4.0...
a wave is travelling with a speed v along the x axis in the
positive direction. The upper graph shows the displacement y versus
the distance x for a given instant of time. The lower graph shows
the displacement y versus the time t for any given point x. From
the information in the graphs, calculate the wave speed v.
Two sources of sound are located on the x axis, and each emits power uniformly in all directions. There are no reflections. One source is positioned at the origin and the other at x = +116 m. The source at the origin emits four times as much power as the other source. Where on the x axis are the two sounds equal in intensity? Note that there are two answers. xbetween the sources = xnot between the sources = Please...
Two loudspeakers, 1.3 m apart, emit sound waves with the same frequency along the positive x-axis. Victor, standing on the axis to the right of the speakers, hears no sound. As the frequency is slowly tripled, Victor hears the sound go through the sequence loud-soft-loud-soft-loud before becoming quiet again. What was the original sound frequency? Assume room temperature of 20∘C.
Please show all work.
A particle moves along the x-axis. A second particle is located at the coordinate (0,3). It is known the force that one particle exerts on the other is given by where .G is a positive constant . r represents the distance between the particles m1, m2 refer to positive constants about the particles (mass). The direction of the force is directly from one particle to the other. . (0,3) (x,0) (A)For a given position of a...
30 An infinite line of charge with linear density λ,--S6pcim is positioned along the axis of a thick conducting shell of inner radius a 3.4 cm and outer radius b-54 cm and infinite length. The conducting shell is uniformly charged with a linear charge density A 2 3.5 uC/m 1) What is EXP), the electric field at point P, located at (x,y)卟7.6cm, 0cm) ? NIC Submit 2) What is Ey/P), the electric field at point P, located at (xy)-(-7.6 cm,...
A plane monochromatic radio wave (? = 0.3 m) travels in vacuum along the positive x-axis, with a time-averaged intensity I = 45.0 W/m2. Suppose at time t = 0, the electric field at the origin is measured to be directed along the positive y-axis with a magnitude equal to its maximum value. What is Bz, the magnetic field at the origin, at time t = 1.5 ns?
A point charge q1-3.8 C is located at the origin of a co-ordinate system. Another point charge q2 = 7.5 pC is located along the x-axis at a distance x2 8.1 cm from q1 (91 1- 1) What is F12,x, the value of the x-component of the force that q1 exerts on q2? -39.09 Submit 2) q1 Charge qz is now displaced a distance y2 3.9 cm in the positive y-direction. What is the new value for the x-component of...
Wave function
You are observing a wave traveling along the x-axis. The first picture (y vs. x) shows a snapshot of the wave at t=0. The second picture dy vs. t) shows how the wave height varies in time from the perspective of an observer standing at fixed location x-0. From this information, determine if the wave is traveling to the left or right. Give a one-sentence explanation justifying your answer 2) 3) The wave function for a harmonic (i.e.,...
t = 0 ms (a) (4 marks) A sinusoidal wave moving along a string is shown twice in the figure at time t = 0 (top) and time t = 4t (bottom). After At = 4.0 ms, the crest travels d=6.0 cm in the positive x direction. The equation for the wave is in the form 8 mm H HHHx y(x, t) =Ym sin(kx = wt). t = 4 ms What are (i) ym, (ii)k, (iii) w, and (iv) the...